Alignment of color planes in multi-beam multi-pass printers

1. A method of operating a multi-beam printer, wherein the multi-beam printer includes a multi-beam device that comprises a plurality of light beam sources, wherein the multi-beam printer includes a transfer medium that interacts with the multi-beam device to print an image onto a print medium, and wherein the print medium comprises a page, the method comprising: detecting at least one light beam generated by one of the plurality of light beam sources of the multi-beam device; subsequent to detecting the at least one light beam generated by one of the plurality of light beam sources of the multi-beam device, detecting a top of the page of the print medium when the top of the page is located at a selected location on the transfer medium; during a first pass of the transfer medium of the multi-beam printer, determining a first time interval between (i) when the at least one light beam from one of the plurality of light beam sources of the multi-beam device is detected during the first pass of the transfer medium of the multi-beam printer and (ii) when the top of the page of the print medium is detected at the selected location on the transfer medium during the first pass of the transfer medium of the multi-beam printer, wherein the first pass forms a first color plane of a latent image on the transfer medium, and wherein the latent image is associated with the image; determining a beam detection period, wherein the beam detection period is an amount of time between two successive detections of light beams from the same light beam source during two successive cross scans of the transfer medium; and based at least in part on comparing the first time interval with the beam detection period, selecting a first light beam source of the plurality of light beam sources to begin illuminating the transfer medium to create the first color plane on the transfer medium during the first pass of the transfer medium, wherein the plurality of light beam sources include N light beam sources, where N is an integer, and wherein selecting the first light beam source further comprises dividing the beam detection period into N+1 time increments, associating each of the (N+1) time increments with a corresponding one of the plurality of light sources, determining that the first time interval is within a time increment associated with the first light beam source, and based on determining that the first time interval is within a time increment associated with the first light beam source, selecting the first light beam source of the plurality of light beam sources.

2. The method of claim 1 , further comprising: forming a first initial scan line of the first color plane at a first selected distance away from a location of the top of the page with the first light beam source, wherein the first color plane has a plurality of scan lines including the first initial scan line, and the first initial scan line is nearest to the top of the page relative to other scan lines of the plurality of scan lines of the first color plane.

3. The method of claim 2 , further comprising: identifying a cross scan from a plurality of cross scans; and during the cross scan that is identified, forming the first initial scan line of the first color plane.

4. The method of claim 2 , further comprising: during a second pass of the transfer medium to form a second color plane on the transfer medium, determining a second time interval between (i) when at least one light beam from one of the plurality of light beam sources of the multi-beam device is detected during the second pass of the transfer medium of the multi-beam printer and (ii) when the top of the page is detected at the selected location on the transfer during the second pass of the transfer medium of the multi-beam printer; and based at least in part on the second time interval, selecting a second light beam source of the plurality of light beam sources of the multi-beam device to begin illuminating the transfer medium to form the second color plane on the transfer medium during the second pass of the transfer medium.

5. The method of claim 4 , further comprising: forming a second initial scan line of the second color plane at a second selected distance away from the location of the top of the page with the second light beam source, wherein the second color plane has a plurality of scan lines including the second initial scan line, and wherein the second initial scan line is nearest to the top of the page relative to other scan lines of the plurality of scan lines of the second color plane.

6. The method of claim 5 , wherein: the first initial scan line has a first width; the second initial scan line has a second width; each of (i) the first width of the first initial scan line and (ii) the second width of the second initial scan line is equal to a width of a pixel; and the second initial scan line is disposed on the transfer medium such that the second initial scan line is not more than one pixel offset from the first initial scan line.

7. The method of claim 5 , further comprising: during a third pass of the transfer medium to form a third color plane on the transfer medium, determining a third time interval between (i) when at least one light beam from one of the plurality of light beam sources of the multi-beam device is detected during the third pass of the transfer medium of the multi-beam printer and (ii) when the top of the page is detected at the selected location on the transfer medium during the third pass of the transfer medium of the multi-beam printer; and based at least in part on the third time interval, selecting a third light beam source of the plurality of light beam sources of the multi-beam device to begin illuminating the transfer medium to form the third color plane on the transfer medium during the third pass of the transfer medium.

8. The method of claim 7 , further comprising: forming a third initial scan line of the third color plane at a third selected distance away from the location of the top of the page with the third light beam source, wherein the third color plane has a plurality of scan lines including the third initial scan line, and wherein the third initial scan line is nearest to the top of the page relative to other scan lines of the plurality of scan lines of the third color plane.

9. The method of claim 8 , wherein: the third initial scan line has a width that is equal to the width of a pixel; and the third initial scan line is disposed on the transfer medium such that the third initial scan line is not more than one pixel offset from (i) the first initial scan line and (ii) the second initial scan line.

10. The method of claim 8 , further comprising: during a fourth pass of the transfer medium to form a fourth color plane on the transfer medium, determining a fourth time interval between (i) when at least one light beam from the multi-beam device is detected during the fourth pass of the transfer medium of the multi-beam printer and (ii) when the top of the page is detected at the selected location on the transfer medium is detected during the fourth pass of the transfer medium of the multi-beam printer; and based at least in part on the fourth time interval, selecting a fourth light beam source of the plurality of light beam sources to begin illuminating the transfer medium to form the fourth color plane on the transfer medium during the fourth pass of the transfer medium.

11. The method of claim 10 , further comprising: forming a fourth initial scan line of the fourth color plane at a fourth selected distance away from the location of the top of the page with the fourth light beam source, wherein the fourth color plane has a plurality of scan lines including the fourth initial scan line, and wherein the fourth initial scan line is nearest to the top of the page relative to the other scan lines of the fourth color plane.

12. The method of claim 11 , wherein: the fourth initial scan line has a width that is equal to the width of a pixel; and the fourth initial scan line is disposed on the transfer medium such that the fourth initial scan line is not more than one pixel offset from (i) the first initial scan line, (ii) the second initial scan line, and (iii) the third initial scan line.

13. The method of claim 1 , wherein the plurality of light beam sources are laser diodes.

14. The method of claim 1 , wherein the detection of the at least one light beam and the detection of the top of the page occurs during a single cross scan of the transfer medium.

15. The method of claim 1 , wherein the (N+1) time increments are unequal time increments.